tools/sheriffing/failureinfo.js - platform/external/chromium_org - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 /**
  * Return the range of intersection between the two lists. Ranges are sets of
  * CLs, so it's inclusive on both ends.
  */
 function rangeIntersection(a, b) {
   if (a[0] > b[1])
     return null;
   if (a[1] < b[0])
     return null;
   // We know they intersect, result is the larger lower bound to the smaller
   // upper bound.
   return [Math.max(a[0], b[0]), Math.min(a[1], b[1])];
 }

 /**
  * Finds the intersections between the blamelists.
  * Input is a object mapping botname => [low, high].
  *
  * Result:
  * [
  *   [ low0, high0 ], [ bot1, bot2, bot3 ],
  *   [ low1, high1 ], [ bot4, ... ],
  *   ...,
  * ]
  */
 function findIntersections(testData) {
   var keys = Object.keys(testData);
   var intersections = [];
   var botName = keys[0];
   var range = testData[botName];
   intersections.push([range, [botName]]);
   for (var i = 1; i < keys.length; ++i) {
     botName = keys[i];
     range = testData[botName];
     var intersectedSome = false;
     for (var j = 0; j < intersections.length; ++j) {
       var intersect = rangeIntersection(intersections[j][0], range);
       if (intersect) {
         intersections[j][0] = intersect;
         intersections[j][1].push(botName);
         intersectedSome = true;
         break;
       }
     }
     if (!intersectedSome) {
       intersections.push([range, [botName]]);
     }
   }

   return intersections;
 }

 /** Flatten out the list of tests and sort them by the binary/test name. */
 function flattenAndSortTests(rangesByTest) {
   var rangesByTestNames = Object.keys(rangesByTest);
   var flat = [];
   for (var i = 0; i < rangesByTestNames.length; ++i) {
     var name = rangesByTestNames[i];
     flat.push([name, rangesByTest[name]]);
   }

   flat.sort(function(a, b) {
     if (a[0] < b[0]) return -1;
     if (a[0] > b[0]) return 1;
     return 0;
   });

   return flat;
 }

 /**
  * Build the HTML table row for a test failure. |test| is [ name, testData ].
  * |testData| contains ranges suitable for input to |findIntersections|.
  */
 function buildTestFailureTableRowHTML(test) {
   var row = document.createElement('tr');
   var binaryCell = row.insertCell(-1);
   var nameParts = test[0].split('-');
   binaryCell.innerHTML = nameParts[0];
   binaryCell.className = 'category';
   var flakinessLink = document.createElement('a');
   flakinessLink.href =
       'http://test-results.appspot.com/dashboards/' +
       'flakiness_dashboard.html#testType=' +
       nameParts[0] + '&tests=' + nameParts[1];
   flakinessLink.innerHTML = nameParts[1];
   row.appendChild(flakinessLink);

   var intersections = findIntersections(test[1]);
   for (var j = 0; j < intersections.length; ++j) {
     var intersection = intersections[j];
     var range = row.insertCell(-1);
     range.className = 'failure-range';
     var low = intersection[0][0];
     var high = intersection[0][1];
     var url =
         'http://build.chromium.org/f/chromium/perf/dashboard/ui/' +
         'changelog.html?url=%2Ftrunk%2Fsrc&range=' +
         low + '%3A' + high + '&mode=html';
     range.innerHTML = '<a href="' + url + '">' + low + ' - ' + high + '</a>: ' +
                       truncateStatusText(intersection[1].join(', '));
   }
   return row;
 }


 /** Updates the correlations contents. */
 function updateCorrelationsHTML() {
   // The logic here is to try to narrow blamelists by using information across
   // bots. If a particular test has failed on multiple different
   // configurations, there's a good chance that it has the same root cause, so
   // calculate the intersection of blamelists of the first time it failed on
   // each builder.

   var allFailures = [];
   for (var i = 0; i < gWaterfallData.length; ++i) {
     var waterfallInfo = gWaterfallData[i];
     var botInfo = waterfallInfo.botInfo;
     var allBotNames = Object.keys(botInfo);
     for (var j = 0; j < allBotNames.length; ++j) {
       var botName = allBotNames[j];
       if (botInfo[botName].isSteadyGreen)
         continue;
       var builds = botInfo[botName].builds;
       var buildNames = Object.keys(builds);
       for (var k = 0; k < buildNames.length; ++k) {
         var build = builds[buildNames[k]];
         if (build.failures) {
           for (var l = 0; l < build.failures.length; ++l) {
             allFailures.push(build.failures[l]);
           }
         }
       }
     }
   }

   // allFailures is now a list of lists, each containing:
   // [ botname, binaryname, testname, [low_rev, high_rev] ].

   var rangesByTest = {};
   for (var i = 0; i < allFailures.length; ++i) {
     var failure = allFailures[i];
     var botName = failure[0];
     var binaryName = failure[1];
     var testName = failure[2];
     var range = failure[3];
     if (binaryName.indexOf('steps') != -1)
       continue;
     if (testName.indexOf('preamble') != -1)
       continue;
     var key = binaryName + '-' + testName;

     if (!rangesByTest.hasOwnProperty(key))
       rangesByTest[key] = {};
     // If there's no range, that's all we know.
     if (!rangesByTest[key].hasOwnProperty([botName])) {
       rangesByTest[key][botName] = range;
     } else {
       // Otherwise, track only the lowest range for this bot (we only want
       // when it turned red, not the whole range that it's been red for).
       if (range[0] < rangesByTest[key][botName][0]) {
         rangesByTest[key][botName] = range;
       }
     }
   }

   var table = document.getElementById('failure-info');
   while (table.rows.length > 0) {
     table.deleteRow(-1);
   }

   var headerCell = document.createElement('td');
   headerCell.colSpan = 15;
   headerCell.innerHTML =
       'test failures (ranges are blamelist intersections of first failure on ' +
       'each bot of retrieved data. so, if a test has been failing for a ' +
       'while, the range may be incorrect)';
   headerCell.className = 'section-header';
   var headerRow = table.insertRow(-1);
   headerRow.appendChild(headerCell);

   var flat = flattenAndSortTests(rangesByTest);

   for (var i = 0; i < flat.length; ++i) {
     table.appendChild(buildTestFailureTableRowHTML(flat[i]));
   }
 }
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	/**
	* Return the range of intersection between the two lists. Ranges are sets of
	* CLs, so it's inclusive on both ends.
	*/
	function rangeIntersection(a, b) {
	if (a[0] > b[1])
	return null;
	if (a[1] < b[0])
	return null;
	// We know they intersect, result is the larger lower bound to the smaller
	// upper bound.
	return [Math.max(a[0], b[0]), Math.min(a[1], b[1])];
	}

	/**
	* Finds the intersections between the blamelists.
	* Input is a object mapping botname => [low, high].
	*
	* Result:
	* [
	* [ low0, high0 ], [ bot1, bot2, bot3 ],
	* [ low1, high1 ], [ bot4, ... ],
	* ...,
	* ]
	*/
	function findIntersections(testData) {
	var keys = Object.keys(testData);
	var intersections = [];
	var botName = keys[0];
	var range = testData[botName];
	intersections.push([range, [botName]]);
	for (var i = 1; i < keys.length; ++i) {
	botName = keys[i];
	range = testData[botName];
	var intersectedSome = false;
	for (var j = 0; j < intersections.length; ++j) {
	var intersect = rangeIntersection(intersections[j][0], range);
	if (intersect) {
	intersections[j][0] = intersect;
	intersections[j][1].push(botName);
	intersectedSome = true;
	break;
	}
	}
	if (!intersectedSome) {
	intersections.push([range, [botName]]);
	}
	}

	return intersections;
	}

	/** Flatten out the list of tests and sort them by the binary/test name. */
	function flattenAndSortTests(rangesByTest) {
	var rangesByTestNames = Object.keys(rangesByTest);
	var flat = [];
	for (var i = 0; i < rangesByTestNames.length; ++i) {
	var name = rangesByTestNames[i];
	flat.push([name, rangesByTest[name]]);
	}

	flat.sort(function(a, b) {
	if (a[0] < b[0]) return -1;
	if (a[0] > b[0]) return 1;
	return 0;
	});

	return flat;
	}

	/**
	* Build the HTML table row for a test failure. \|test\| is [ name, testData ].
	* \|testData\| contains ranges suitable for input to \|findIntersections\|.
	*/
	function buildTestFailureTableRowHTML(test) {
	var row = document.createElement('tr');
	var binaryCell = row.insertCell(-1);
	var nameParts = test[0].split('-');
	binaryCell.innerHTML = nameParts[0];
	binaryCell.className = 'category';
	var flakinessLink = document.createElement('a');
	flakinessLink.href =
	'http://test-results.appspot.com/dashboards/' +
	'flakiness_dashboard.html#testType=' +
	nameParts[0] + '&tests=' + nameParts[1];
	flakinessLink.innerHTML = nameParts[1];
	row.appendChild(flakinessLink);

	var intersections = findIntersections(test[1]);
	for (var j = 0; j < intersections.length; ++j) {
	var intersection = intersections[j];
	var range = row.insertCell(-1);
	range.className = 'failure-range';
	var low = intersection[0][0];
	var high = intersection[0][1];
	var url =
	'http://build.chromium.org/f/chromium/perf/dashboard/ui/' +
	'changelog.html?url=%2Ftrunk%2Fsrc&range=' +
	low + '%3A' + high + '&mode=html';
	range.innerHTML = '<a href="' + url + '">' + low + ' - ' + high + '</a>: ' +
	truncateStatusText(intersection[1].join(', '));
	}
	return row;
	}


	/** Updates the correlations contents. */
	function updateCorrelationsHTML() {
	// The logic here is to try to narrow blamelists by using information across
	// bots. If a particular test has failed on multiple different
	// configurations, there's a good chance that it has the same root cause, so
	// calculate the intersection of blamelists of the first time it failed on
	// each builder.

	var allFailures = [];
	for (var i = 0; i < gWaterfallData.length; ++i) {
	var waterfallInfo = gWaterfallData[i];
	var botInfo = waterfallInfo.botInfo;
	var allBotNames = Object.keys(botInfo);
	for (var j = 0; j < allBotNames.length; ++j) {
	var botName = allBotNames[j];
	if (botInfo[botName].isSteadyGreen)
	continue;
	var builds = botInfo[botName].builds;
	var buildNames = Object.keys(builds);
	for (var k = 0; k < buildNames.length; ++k) {
	var build = builds[buildNames[k]];
	if (build.failures) {
	for (var l = 0; l < build.failures.length; ++l) {
	allFailures.push(build.failures[l]);
	}
	}
	}
	}
	}

	// allFailures is now a list of lists, each containing:
	// [ botname, binaryname, testname, [low_rev, high_rev] ].

	var rangesByTest = {};
	for (var i = 0; i < allFailures.length; ++i) {
	var failure = allFailures[i];
	var botName = failure[0];
	var binaryName = failure[1];
	var testName = failure[2];
	var range = failure[3];
	if (binaryName.indexOf('steps') != -1)
	continue;
	if (testName.indexOf('preamble') != -1)
	continue;
	var key = binaryName + '-' + testName;

	if (!rangesByTest.hasOwnProperty(key))
	rangesByTest[key] = {};
	// If there's no range, that's all we know.
	if (!rangesByTest[key].hasOwnProperty([botName])) {
	rangesByTest[key][botName] = range;
	} else {
	// Otherwise, track only the lowest range for this bot (we only want
	// when it turned red, not the whole range that it's been red for).
	if (range[0] < rangesByTest[key][botName][0]) {
	rangesByTest[key][botName] = range;
	}
	}
	}

	var table = document.getElementById('failure-info');
	while (table.rows.length > 0) {
	table.deleteRow(-1);
	}

	var headerCell = document.createElement('td');
	headerCell.colSpan = 15;
	headerCell.innerHTML =
	'test failures (ranges are blamelist intersections of first failure on ' +
	'each bot of retrieved data. so, if a test has been failing for a ' +
	'while, the range may be incorrect)';
	headerCell.className = 'section-header';
	var headerRow = table.insertRow(-1);
	headerRow.appendChild(headerCell);

	var flat = flattenAndSortTests(rangesByTest);

	for (var i = 0; i < flat.length; ++i) {
	table.appendChild(buildTestFailureTableRowHTML(flat[i]));
	}
	}